# -*- coding: utf-8 -*-
# ------------------------------------------------------------------------------
# Name:         text.py
# Purpose:      music21 class which allows for accurate formatting of braille transcription
# Authors:      Jose Cabal-Ugaz
#               Michael Scott Cuthbert
#
# Copyright:    Copyright © 2011, 2016 Michael Scott Cuthbert and the music21 Project
# License:      BSD, see license.txt
# ------------------------------------------------------------------------------
import unittest

from music21 import exceptions21
from music21 import prebase
from music21.braille import lookup
from music21.braille.basic import numberToBraille, yieldDots

symbols = lookup.symbols


class BrailleText(prebase.ProtoM21Object):
    '''
    Object that handles all the formatting associated with braille music notation on multiple lines.

    >>> bt = braille.text.BrailleText(lineLength=10, showHand='right')
    >>> bt
    <music21.braille.text.BrailleText 1 line, 0 headings, 10 cols>
    >>> bt.lineLength
    10
    >>> bt.allLines
    [<music21.braille.text.BrailleTextLine '⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀'>]
    >>> bt.rightHandSymbol
    True
    >>> bt.leftHandSymbol
    False
    >>> bt.allHeadings
    []
    '''
    def __init__(self, lineLength=40, showHand=None):
        self.lineLength = lineLength
        self.currentLine = None
        self.allLines = []
        self.makeNewLine()

        self._showHand = None
        self.rightHandSymbol = False
        self.leftHandSymbol = False
        self.allHeadings = []

        self.showHand = showHand

    def _reprInternal(self) -> str:
        line_len = len(self.allLines)
        line_str = f'{line_len} line' + ('s' if line_len != 1 else '')
        heading_len = len(self.allHeadings)
        heading_str = f'{heading_len} heading' + ('s' if heading_len != 1 else '')

        return f'{line_str}, {heading_str}, {self.lineLength} cols'

    @property
    def showHand(self):
        return self._showHand

    @showHand.setter
    def showHand(self, newHand):
        if newHand == 'right':
            self.rightHandSymbol = True
        elif newHand == 'left':
            self.leftHandSymbol = True
        elif newHand is not None:
            raise BrailleTextException('Illegal hand sign request.')

    def addHeading(self, heading):
        '''
        adds a heading to the BrailleText.  Heading can be a single or multiple line
        Unicode string representing a heading.

        These headings are not stored in allHeadings, but instead in .allLines,
        what .allHeadings stores is the index of the start of a heading section
        and the index of the end of a heading section.

        (since each BrailleTextLine knows whether it is a heading or not, storing
        the index of headings might be overkill)

        >>> bt = braille.text.BrailleText(lineLength=10)
        >>> headingText = braille.basic.timeSigToBraille(meter.TimeSignature('4/8'))
        >>> bt.addHeading(headingText)
        >>> len(bt.allLines)
        2
        >>> bt.allLines[0].isHeading
        True
        >>> print(str(bt.allLines[0]))
        ⠼⠙⠦
        >>> bt.allHeadings
        [(0, 1)]
        >>> bt.addMeasureNumber(7)
        >>> headingText = braille.basic.timeSigToBraille(meter.TimeSignature('3/4'))
        >>> bt.addHeading(headingText)
        >>> len(bt.allLines)
        4
        >>> bt.allHeadings
        [(0, 1), (2, 3)]
        '''
        if self.currentLine.textLocation != 0:
            self.makeNewLine()
        indexStart = len(self.allLines) - 1
        indexFinal = indexStart

        brailleCurrentLine = self.currentLine
        for headingLine in heading.splitlines():
            brailleCurrentLine.isHeading = True
            brailleCurrentLine.append(headingLine, addSpace=False)
            self.makeNewLine()
            indexFinal += 1
        self.allHeadings.append((indexStart, indexFinal))

    def addLongExpression(self, longExpr):
        '''
        Adds an expression long enough that it is split at
        each space symbol such that line wrapping could occur.


        >>> bt = braille.text.BrailleText(lineLength=10)
        >>>
        '''
        for brailleExpr in longExpr.split(symbols['space']):
            self.appendOrInsertCurrent(brailleExpr)

    def addToNewLine(self, brailleNoteGrouping):
        '''
        Adds a NoteGrouping to a new line, prefacing that new line
        with the appropriate spaces or keyboard symbols and dots.

        >>> bt = braille.text.BrailleText(10)
        >>> bt.currentLine.append('hi', addSpace=False)
        >>> print(str(bt))
        hi
        >>> c = braille.lookup.pitchNameToNotes['C']['quarter']  # dots 1456
        >>> bt.addToNewLine(c + c + c)
        >>> print(str(bt))
        hi
        ⠀⠀⠹⠹⠹

        It is done differently if there are hand symbols involved:

        >>> bt = braille.text.BrailleText(10)
        >>> bt.showHand = 'right'
        >>> bt.currentLine.append('hi', addSpace=False)
        >>> bt.addToNewLine(c + c + c)
        >>> print(str(bt))
        hi
        ⠨⠜⠄⠹⠹⠹

        '''
        self.makeNewLine()
        if self.rightHandSymbol or self.leftHandSymbol:
            self.optionalAddKeyboardSymbolsAndDots(brailleNoteGrouping)
            self.currentLine.append(brailleNoteGrouping, addSpace=False)
        else:
            self.currentLine.insert(2, brailleNoteGrouping)

    def appendOrInsertCurrent(self, brailleExpr, addSpace=True):
        '''
        append expression to the current line if it is possible,
        or make a new line and insert it there:

        >>> bt = braille.text.BrailleText(lineLength=10)
        >>> bt.appendOrInsertCurrent('hello', addSpace=False)
        >>> print(str(bt))
        hello
        >>> bt.appendOrInsertCurrent(braille.lookup.symbols['space'] + 'hi')
        >>> print(str(bt))
        hello⠀⠀hi
        >>> bt.appendOrInsertCurrent(braille.lookup.symbols['space'] + 'there')
        >>> print(str(bt))
        hello⠀⠀hi
        ⠀⠀⠀there
        '''
        if self.currentLine.canAppend(brailleExpr, addSpace=addSpace):
            self.currentLine.append(brailleExpr, addSpace=addSpace)
        else:
            self.makeNewLine()
            self.currentLine.insert(2, brailleExpr)

    # def addInaccord(self, inaccord):
    #     addSpace = self.optionalAddKeyboardSymbolsAndDots(inaccord)
    #
    #     try:
    #         self.currentLine.append(inaccord, addSpace=addSpace)
    #     except BrailleTextException:
    #         self.makeNewLine()
    #         if self.rightHandSymbol or self.leftHandSymbol:
    #             if self.rightHandSymbol:
    #                 self.currentLine.insert(2, symbols['rh_keyboard'])
    #             elif self.leftHandSymbol:
    #                 self.currentLine.insert(2, symbols['lh_keyboard'])
    #             for dot in yieldDots(inaccord[0]):
    #                 self.currentLine.append(dot, addSpace=False)
    #             self.currentLine.append(inaccord, addSpace=False)
    #         else:
    #             self.currentLine.insert(2, inaccord)
    #     self.currentLine.containsNoteGrouping = True

    def addMeasureNumber(self, measureNumber):
        '''
        Add a measure number (either a braille number or an int).

        >>> bt = braille.text.BrailleText(lineLength=10)
        >>> bt
        <music21.braille.text.BrailleText 1 line, 0 headings, 10 cols>
        >>> bt.allLines
        [<music21.braille.text.BrailleTextLine '⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀'>]
        >>> bt.addMeasureNumber(4)
        >>> print(str(bt.allLines[0]))
        ⠼⠙
        >>> bt.currentLine.textLocation
        2

        If there are already lines, then add a new one:

        >>> bt.addMeasureNumber(5)
        >>> bt.allLines
        [<music21.braille.text.BrailleTextLine '⠼⠙⠀⠀⠀⠀⠀⠀⠀⠀'>,
         <music21.braille.text.BrailleTextLine '⠼⠑⠀⠀⠀⠀⠀⠀⠀⠀'>]
        >>> print(str(bt.allLines[-1]))
        ⠼⠑
        '''
        if isinstance(measureNumber, int):
            measureNumber = numberToBraille(measureNumber)

        if self.currentLine.textLocation != 0:
            self.makeNewLine()
        self.currentLine.append(measureNumber, addSpace=False)

    def optionalAddKeyboardSymbolsAndDots(self, noteGrouping=None):
        '''
        Adds symbols for rh_keyboard or lh_keyboard depending on what
        is appropriate

        returns a boolean indicating whether a space needs to be added
        before the next symbol is needed.
        '''
        addSpace = True
        if (not self.currentLine.containsNoteGrouping
                and (self.rightHandSymbol or self.leftHandSymbol)):
            if self.currentLine.textLocation == 0:
                addSpace = False
            if self.rightHandSymbol:
                self.currentLine.append(symbols['rh_keyboard'], addSpace=addSpace)
            elif self.leftHandSymbol:
                self.currentLine.append(symbols['lh_keyboard'], addSpace=addSpace)
            if noteGrouping:
                for dot in yieldDots(noteGrouping[0]):
                    self.currentLine.append(dot, addSpace=False)
            addSpace = False

        if self.currentLine.textLocation == 0:
            addSpace = False

        return addSpace

    def addSignatures(self, signatures):
        '''
        Appends signatures to the current location if there is space, otherwise appends to
        a new line:

        >>> bt = braille.text.BrailleText(lineLength=5)
        >>> bt.addSignatures(braille.basic.timeSigToBraille(meter.TimeSignature('4/8')))
        >>> print(str(bt.currentLine))
        ⠼⠙⠦
        >>> bt.addSignatures(braille.basic.timeSigToBraille(meter.TimeSignature('3/4')))
        >>> print(str(bt.currentLine))
        ⠀⠀⠼⠉⠲
        >>> len(bt.allLines)
        2
        '''
        addSpace = True
        if self.currentLine.textLocation == 0:
            addSpace = False

        self.appendOrInsertCurrent(signatures, addSpace=addSpace)

    def makeNewLine(self):
        '''
        Add a newline to the BrailleText

        >>> bt = braille.text.BrailleText(lineLength=10)
        >>> len(bt.allLines)
        1
        >>> bt.makeNewLine()
        >>> len(bt.allLines)
        2
        >>> bt.makeNewLine()
        >>> len(bt.allLines)
        3
        '''
        self.currentLine = BrailleTextLine(self.lineLength)
        self.allLines.append(self.currentLine)

    def recenterHeadings(self):
        '''
        Recenter each of the headings so that they exactly align
        with the text beneath them.

        Demonstration with non braille text...

        >>> heading1 = 'hello'
        >>> body1 = 'anyoneHome?' + braille.lookup.symbols['space'] + 'yup!'
        >>> bt = braille.text.BrailleText(lineLength=12)
        >>> bt.addHeading(heading1)
        >>> bt.addLongExpression(body1)
        >>> bt.allHeadings
        [(0, 1)]
        >>> bt.recenterHeadings()
        >>> print(str(bt))
        ⠀⠀⠀hello⠀⠀⠀⠀
        ⠀anyoneHome?
        ⠀⠀yup!

        Each heading is aligned with its own text

        >>> heading2 = 'buh'
        >>> body2 = 'short' + braille.lookup.symbols['space'] + 'court'
        >>> bt.addHeading(heading2)
        >>> bt.addLongExpression(body2)
        >>> bt.allHeadings
        [(0, 1), (3, 4)]
        >>> bt.recenterHeadings()
        >>> print(str(bt))
        ⠀⠀⠀hello⠀⠀⠀⠀
        ⠀anyoneHome?
        ⠀⠀yup!
        ⠀⠀⠀⠀buh⠀⠀⠀⠀⠀
        ⠀short⠀court
        '''
        for (indexStart, indexFinal) in self.allHeadings:
            maxLineLength = 0  # refers to the maximum length of any heading.
            for i in range(indexFinal, len(self.allLines)):
                if self.allLines[i].isHeading:
                    break
                lineLength = self.allLines[i].textLocation
                if lineLength > maxLineLength:
                    maxLineLength = lineLength
            for j in range(indexStart, indexFinal):
                brailleTextLine = self.allLines[j]
                lineStrToCenter = str(brailleTextLine)
                lineStrToCenter = lineStrToCenter.strip(symbols['space'])
                if maxLineLength > len(lineStrToCenter):
                    lineStrToCenter = lineStrToCenter.center(maxLineLength, symbols['space'])
                    brailleTextLine.insert(0, lineStrToCenter)
                    brailleTextLine.textLocation = maxLineLength

    def __str__(self):
        self.recenterHeadings()
        return '\n'.join([str(line) for line in self.allLines])


class BrailleKeyboard(BrailleText):
    '''
    A subclass of BrailleText that handles both hands at once.
    '''

    def __init__(self, lineLength=40):
        super().__init__(lineLength=lineLength)
        self.rightHandLine = None
        self.leftHandLine = None
        self.highestMeasureNumberLength = 0  # used in BrailleKeyboard layouts

    # def addElement(self, **elementKeywords):
    #     if 'pair' in elementKeywords:
    #         (measureNumber, noteGroupingR, noteGroupingL) = elementKeywords['pair']
    #         self.addNoteGroupings(measureNumber, noteGroupingL, noteGroupingR)
    #     else:
    #         return super().addElement(**elementKeywords)

    def makeNewLines(self):
        if self.currentLine.textLocation == 0:
            self.rightHandLine = self.currentLine
        else:
            self.rightHandLine = BrailleTextLine(self.lineLength)
            self.allLines.append(self.rightHandLine)

        self.leftHandLine = BrailleTextLine(self.lineLength)
        self.allLines.append(self.leftHandLine)

    def addNoteGroupings(self, measureNumber, noteGroupingR, noteGroupingL):
        if self.rightHandLine is None and self.leftHandLine is None:
            self.makeNewLines()
        if self.rightHandLine.textLocation == 0:
            self.rightHandLine.insert(self.highestMeasureNumberLength - len(measureNumber),
                                      measureNumber)
            self.leftHandLine.textLocation = self.rightHandLine.textLocation
        addSpace = True
        if self.rightHandLine.containsNoteGrouping is False:
            addSpace = False
            self.rightHandLine.append(symbols['rh_keyboard'], addSpace=True)
            self.leftHandLine.append(symbols['lh_keyboard'], addSpace=True)
            if noteGroupingR:
                for dot in yieldDots(noteGroupingR[0]):
                    self.rightHandLine.append(dot, addSpace=False)
            if noteGroupingL:
                for dot in yieldDots(noteGroupingL[0]):
                    self.leftHandLine.append(dot, addSpace=False)
        if (self.rightHandLine.canAppend(noteGroupingR, addSpace=addSpace)
                and self.leftHandLine.canAppend(noteGroupingL, addSpace=addSpace)):
            if noteGroupingL:
                self.leftHandLine.append(noteGroupingL, addSpace=addSpace)
            if noteGroupingR:
                self.rightHandLine.append(noteGroupingR, addSpace=addSpace)
            if self.rightHandLine.textLocation > self.leftHandLine.textLocation:
                self.leftHandLine.textLocation = self.rightHandLine.textLocation
            else:
                self.rightHandLine.textLocation = self.leftHandLine.textLocation
        else:
            self.makeNewLines()
            self.rightHandLine.insert(self.highestMeasureNumberLength - len(measureNumber),
                                      measureNumber)
            self.leftHandLine.textLocation = self.rightHandLine.textLocation
            self.rightHandLine.append(symbols['rh_keyboard'], addSpace=True)
            self.leftHandLine.append(symbols['lh_keyboard'], addSpace=True)
            if noteGroupingR:
                for dot in yieldDots(noteGroupingR[0]):
                    self.rightHandLine.append(dot, addSpace=False)
                self.rightHandLine.append(noteGroupingR, addSpace=False)

            if noteGroupingL:
                for dot in yieldDots(noteGroupingL[0]):
                    self.leftHandLine.append(dot, addSpace=False)
                self.leftHandLine.append(noteGroupingL, addSpace=False)
            if self.rightHandLine.textLocation > self.leftHandLine.textLocation:
                self.leftHandLine.textLocation = self.rightHandLine.textLocation
            else:
                self.rightHandLine.textLocation = self.leftHandLine.textLocation
        self.rightHandLine.containsNoteGrouping = True
        self.leftHandLine.containsNoteGrouping = True


class BrailleTextLine(prebase.ProtoM21Object):
    '''
    An object representing a single line of braille text:

    The initial value is the length of the line:

    >>> btl = braille.text.BrailleTextLine(40)
    >>> btl
    <music21.braille.text.BrailleTextLine '⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀'>
    >>> btl.isHeading
    False
    >>> btl.containsNoteGrouping
    False
    >>> btl.lineLength
    40
    >>> btl.textLocation
    0
    >>> btl.highestUsedLocation
    0
    >>> btl.allChars == 40 * [braille.lookup.symbols['space']]
    True

    >>> btl.append(braille.lookup.symbols['tie'])
    >>> btl
    <music21.braille.text.BrailleTextLine '⠀⠈⠉⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀⠀'>
    >>> print(str(btl))
    ⠀⠈⠉
    '''
    def __init__(self, lineLength=40):
        self.isHeading = False
        self.containsNoteGrouping = False
        self.lineLength = lineLength
        self.allChars = self.lineLength * [symbols['space']]
        self.textLocation = 0
        self.highestUsedLocation = 0

    def _reprInternal(self) -> str:
        return repr(''. join(self.allChars))

    def append(self, text, addSpace=True):
        '''
        Appends text (with optional space at the beginning) or raises an
        exception if it cannot be appended.

        >>> btl = braille.text.BrailleTextLine(6)
        >>> btl.append(braille.lookup.symbols['tie'], addSpace=False)
        >>> print(str(btl))
        ⠈⠉
        >>> btl.textLocation
        2
        >>> btl.highestUsedLocation
        2

        Default is to add a space:

        >>> btl.append(braille.lookup.symbols['tie'])
        >>> print(str(btl))
        ⠈⠉⠀⠈⠉

        Out of room:

        >>> btl.append(braille.lookup.symbols['tie'])
        Traceback (most recent call last):
        music21.braille.text.BrailleTextException: Text does not fit at end of braille text line.

        Text is appended at `textLocation`, overwriting other text that might be there.

        >>> btl.textLocation = btl.highestUsedLocation = 0
        >>> btl.append('hi', addSpace=False)
        >>> btl.textLocation = btl.highestUsedLocation = 5
        >>> print(str(btl))
        hi⠀⠈⠉
        '''
        if not self.canAppend(text, addSpace):
            raise BrailleTextException('Text does not fit at end of braille text line.')
        if addSpace:
            self.allChars[self.textLocation] = symbols['space']
            self.textLocation += 1
        for char in list(text):
            self.allChars[self.textLocation] = char
            self.textLocation += 1
        self.highestUsedLocation = self.textLocation

    def insert(self, textLocation, text):
        '''
        Inserts text at a certain location, updating textLocation and possibly
        highestUsedLocation:

        >>> btl = braille.text.BrailleTextLine(6)
        >>> btl.insert(2, braille.lookup.symbols['tie'])
        >>> print(str(btl))
        ⠀⠀⠈⠉
        >>> btl.textLocation
        4
        >>> btl.highestUsedLocation
        4

        >>> btl.insert(0, braille.lookup.symbols['tie'])

        It looks like we have deleted the previous tie:

        >>> print(str(btl))
        ⠈⠉

        But that's because only characters up to .textLocation are printed
        (this may change later)

        >>> btl.textLocation
        2
        >>> btl.highestUsedLocation
        4

        Let's change textLocation and now see:

        >>> btl.textLocation = btl.highestUsedLocation
        >>> print(str(btl))
        ⠈⠉⠈⠉

        Inserting beyond the end creates an error:

        >>> btl.insert(5, braille.lookup.symbols['tie'])
        Traceback (most recent call last):
        music21.braille.text.BrailleTextException: Text cannot be inserted at specified location.

        Unlike list inserts, this insert overwrites the previous text:

        >>> btl.insert(0, 'hi')
        >>> btl.textLocation = btl.highestUsedLocation
        >>> print(str(btl))
        hi⠈⠉
        '''
        if not self.canInsert(textLocation, text):
            raise BrailleTextException('Text cannot be inserted at specified location.')
        self.textLocation = textLocation
        for char in list(text):
            self.allChars[self.textLocation] = char
            self.textLocation += 1
        if self.textLocation > self.highestUsedLocation:
            self.highestUsedLocation = self.textLocation

    def canAppend(self, text, addSpace=True):
        '''
        Returns True if there is enough space in this line to append the text, or False
        if not:

        >>> btl = braille.text.BrailleTextLine(10)
        >>> btl.canAppend('1234567890', addSpace=False)
        True
        >>> btl.canAppend('12345678901', addSpace=False)
        False
        >>> btl.canAppend('1234567890', addSpace=True)
        False
        >>> btl.textLocation
        0
        >>> btl.textLocation = 5
        >>> btl.canAppend('12345', addSpace=False)
        True
        >>> btl.canAppend('123456', addSpace=False)
        False

        If highestUsedLocation > textLocation, highestUsedLocation is used instead:

        >>> btl.highestUsedLocation = 7
        >>> btl.canAppend('123', addSpace=False)
        True
        >>> btl.canAppend('1234', addSpace=False)
        False
        '''
        if self.highestUsedLocation > self.textLocation:
            searchLocation = self.highestUsedLocation
        else:
            searchLocation = self.textLocation
        addSpaceAmount = 1 if addSpace else 0
        if (searchLocation + len(text) + addSpaceAmount) > self.lineLength:
            return False
        else:
            return True

    def canInsert(self, textLocation, text):
        '''
        Returns True if there is enough space starting at textLocation to append
        the text. False otherwise:

        >>> btl = braille.text.BrailleTextLine(10)
        >>> btl.canInsert(4, '123456')
        True
        >>> btl.canInsert(5, '123456')
        False
        '''
        if textLocation + len(text) > self.lineLength:
            return False
        else:
            return True

    def lastHyphenToSpace(self):
        '''
        Occasionally a line ends with a hyphen because
        the last appender thought it would be helpful, such as
        to put more characters into a line.  But in case it
        is not, then this method will change that last character
        to a space and set textLocation back one character
        so it is not printed.

        >>> bt = braille.text.BrailleTextLine(10)
        >>> bt.append('hi', addSpace=False)
        >>> bt.append(braille.lookup.symbols['music_hyphen'], addSpace=False)
        >>> print(str(bt))
        hi⠐
        >>> bt.textLocation
        3
        >>> print(bt.allChars[2])
        ⠐
        >>> bt.lastHyphenToSpace()
        >>> print(str(bt))
        hi
        >>> bt.allChars[2] == braille.lookup.symbols['space']
        True
        >>> bt.textLocation
        2
        '''
        prevLoc = self.textLocation - 1
        if prevLoc < 0:
            return
        prevChar = self.allChars[prevLoc]
        if prevChar == symbols['music_hyphen']:  # and not forceHyphen:
            self.allChars[prevLoc] = symbols['space']
            self.textLocation -= 1

    def __str__(self):
        return ''.join(self.allChars[0:self.textLocation])


# ------------------------------------------------------------------------------

class BrailleTextException(exceptions21.Music21Exception):
    pass

# ------------------------------------------------------------------------------


class Test(unittest.TestCase):

    def runTest(self):
        pass


if __name__ == '__main__':
    import music21
    music21.mainTest(Test)

